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Conteúdo Médico

Janeiro

Amamentação: prevenção primária de doenças em mulheres

1. Saxton, A., Fahy, K., Rolfe, M., Skinner, V., & Hastie, C. (2015). Does skin-to-skin contact and breast feeding at birth affect the rate of primary postpartum haemorrhage: Results of a cohort study. Midwifery, 31(11), 1110-1117.

 

2. John, E. M., Hines, L. M., Phipps, A. I., Koo, J., Longacre, T. A., Ingles, S. A., ... & Wu, A. H. (2018). Reproductive history, breast‐feeding and risk of triple negative breast cancer: The Breast Cancer Etiology in Minorities (BEM) Study. International journal of cancer.

 

3. Farland, L. V., Eliassen, A. H., Tamimi, R. M., Spiegelman, D., Michels, K. B., & Missmer, S. A. (2017). History of breast feeding and risk of incident endometriosis: prospective cohort study. bmj, 358, j3778.

 

4. Choi, S. R., Kim, Y. M., Cho, M. S., Kim, S. H., & Shim, Y. S. (2017). Association Between Duration of Breast Feeding and Metabolic Syndrome: The Korean National Health and Nutrition Examination Surveys. Journal of Women's Health, 26(4), 361-367.

 

5. Gonçalves, A. C. S., Ferreira, M. D. F., Hasselmann, M. H., & Faerstein, E. (2015). The effect of breastfeeding on the bone mass of post-menopausal women: a systematic review of observational studies. Revista Brasileira de Saúde Materno Infantil, 15(3), 265-278.

Fevereiro

Vitaminas e suplementos: benefícios para o coração

1. Geleijnse JM, Giltay EJ, Grobbee DE, Donders AR, Kok FJ. Blood pressure response to fish oil supplementation: metaregression analysis of randomized trials. J Hypertens.2002;20(8):1493-9.

2. Wang TJ, Pencina MJ, Booth SL, Jacques PF, Ingelsson E, Lanier K, et al. Vitamin D deficiency and risk of cardiovascular disease. Circulation. 2008;117(4):503-11.

 

3. Vivekananthan DP, Penn MS, Sapp SK, Hsu A, Topol EJ. Use of antioxidant vitamins for the prevention of cardiovascular disease: meta-analysis of randomised trials. Lancet. 2003;361(9374):2017-23. 

 

4. Homocysteine Studies Collaboration. Homocysteine and risk of ischemic heart disease and stroke: a meta-analysis. JAMA. 2002;288(16):2015-22.

 

5. Ye Y, Li J, Yuan Z. Effect of antioxidant vitamin supplementation on cardiovascular outcomes: a meta-analysis of randomized controlled trials. PLoS One. 2013;8(2):e56803. 

Março

Intestino: relação com o sistema imunológico

1. Ivanov, I. I., Atarashi, K., Manel, N., Brodie, E. L., Shima, T., Karaoz, U., ... & Tanoue, T. (2009). Induction of intestinal Th17 cells by segmented filamentous bacteria. Cell, 139(3), 485-498.

 

2. Johnson, K. V. A., & Foster, K. R. (2018). Why does the microbiome affect behaviour?. Nature Reviews Microbiology, 1.

 

3. Geuking, M. B., Köller, Y., Rupp, S., & McCoy, K. D. (2014). The interplay between the gut microbiota and the immune system. Gut microbes, 5(3), 411-418.

 

4. Wu, H. J., & Wu, E. (2012). The role of gut microbiota in immune homeostasis and autoimmunity. Gut microbes, 3(1), 4-14.

 

5. Selkrig, J., Wong, P., Zhang, X., & Pettersson, S. (2014). Metabolic tinkering by the gut microbiome: implications for brain development and function. Gut microbes, 5(3), 369-380.

Abril

Higiene bucal: prevenção do câncer de cabeça e pescoço

1. Chang, J. S., Lo, H. I., Wong, T. Y., Huang, C. C., Lee, W. T., Tsai, S. T., ... & Yang, M. W. (2013). Investigating the association between oral hygiene and head and neck cancer. Oral oncology, 49(10), 1010-1017.

 

2. Thacker, K. K., Kaste, L. M., Homsi, K. D., & LeHew, C. W. (2016). An assessment of oral cancer curricula in dental hygiene programmes: implications for cancer control. International journal of dental hygiene, 14(4), 307-313.

 

3. Hashim, D., Sartori, S., Brennan, P., Curado, M. P., Wünsch-Filho, V., Divaris, K., ... & Castellsagué, X. (2016). The role of oral hygiene in head and neck cancer: results from International Head and Neck Cancer Epidemiology (INHANCE) consortium. Annals of Oncology, 27(8), 1619-1625.

 

4. Ahrens, W., Pohlabeln, H., Foraita, R., Nelis, M., Lagiou, P., Lagiou, A., ... & Richiardi, L. (2014). Oral health, dental care and mouthwash associated with upper aerodigestive tract cancer risk in Europe: the ARCAGE study. Oral oncology, 50(6), 616-625.

 

5. Barao, D. M. H., Essex, G., Lazar, A. A., & Rowe, D. J. (2016). Detection of Early-Stage Oral Cancer Lesions: A Survey of California Dental Hygienists. American Dental Hygienists Association, 90(6), 346-353.

Maio

Zika vírus: impacto cardiovascular

1. Minhas, A. M., Nayab, A., Shobana Iyer, M. N., Fatima, K., Khan, M. S., & Constantin, J. (2017). Association of zika virus with myocarditis, heart failure, and arrhythmias: A literature review. Cureus, 9(6).

 

2. Di Cavalcanti, D., Alves, L. V., Furtado, G. J., Santos, C. C., Feitosa, F. G., Ribeiro, M. C., ... & Alves, J. G. (2017). Echocardiographic findings in infants with presumed congenital Zika syndrome: Retrospective case series study. PloS one, 12(4), e0175065.

 

3. Angelidou, A., Michael, Z., Hotz, A., Friedman, K., Emani, S., LaRovere, K., & Christou, H. (2018). Is There More to Zika? Complex Cardiac Disease in a Case of Congenital Zika Syndrome. Neonatology, 113(2), 177-182.

 

4. Orofino, D. H., Passos, S. R., de Oliveira, R. V., Farias, C. V. B., Maria de Fatima, M. P., Pone, S. M., ... & Nielsen-Saines, K. (2018). Cardiac findings in infants with in utero exposure to Zika virus-a cross sectional study. PLoS neglected tropical diseases, 12(3), e0006362.

 

5. Liu, S., DeLalio, L. J., Isakson, B. E., & Wang, T. T. (2016). AXL-mediated productive infection of human endothelial cells by Zika virus. Circulation research, CIRCRESAHA-116.

Junho

Câncer: tecnologia a serviço da saúde

1. Tran, B., Dancey, J. E., Kamel-Reid, S., McPherson, J. D., Bedard, P. L., Brown, A. M., ... & Hudson, T. J. (2012). Cancer genomics: technology, discovery, and translation. J Clin Oncol, 30(6), 647-660.

 

2. Wulfkuhle, J. D., Edmiston, K. H., Liotta, L. A., & Petricoin III, E. F. (2006). Technology insight: pharmacoproteomics for cancer—promises of patient-tailored medicine using protein microarrays. Nature Reviews Clinical Oncology, 3(5), 256.

3. Chen, M., Yu, Y., Jiang, F., Zhou, J., Li, Y., Liang, C., ... & Zhang, G. (2016). Development of cell-SELEX technology and its application in cancer diagnosis and therapy. International journal of molecular sciences, 17(12), 2079.

 

4. Groen, W. G., Kuijpers, W., Oldenburg, H. S., Wouters, M. W., Aaronson, N. K., & van Harten, W. H. (2015). Empowerment of cancer survivors through information technology: an integrative review. Journal of medical Internet research, 17(11).

 

5. Kunnen, B., Macdonald, C., Doronin, A., Jacques, S., Eccles, M., & Meglinski, I. (2015). Application of circularly polarized light for non‐invasive diagnosis of cancerous tissues and turbid tissue‐like scattering media. Journal of biophotonics, 8(4), 317-323.

Julho

AVC: associação com a insônia

1. McDermott, M., Brown, D. L., & Chervin, R. D. (2018). Sleep disorders and the risk of stroke. Expert review of neurotherapeutics, (just-accepted). https://doi.org/10.1080/14737175.2018.1489239

 

2. Koo, D. L., Nam, H., Thomas, R. J., & Yun, C. H. (2018). Sleep disturbances as a risk factor for stroke. Journal of stroke, 20(1), 12.

3. Ao, K. H., Ho, C. H., Wang, C. C., Wang, J. J., Chio, C. C., & Kuo, J. R. (2017). The increased risk of stroke in early insomnia following traumatic brain injury: a population-based cohort study. Sleep medicine, 37, 187-192.

 

4. Moon, H. I., Yoon, S. Y., Jeong, J. Y., & Cho, H. T. (2018). Sleep disturbances negatively affect balance and gait function in post-stroke patients. NeuroRehabilitation, (Preprint), 1-8.

 

5. Ma, C., Pavlova, M., Liu, Y., Liu, Y., Huangfu, C., Wu, S., & Gao, X. (2017). Probable REM sleep behavior disorder and risk of stroke: A prospective study. Neurology, 88(19), 1849-1855.

Agosto

Gravidez: uso de clexane

1. Dargaud, Y., Rugeri, L., Fleury, C., Battie, C., Gaucherand, P., Huissoud, C., ... & Trzeciak, M. C. (2017). Personalized thromboprophylaxis using a risk score for the management of pregnancies with high risk of thrombosis: a prospective clinical study. Journal of Thrombosis and Haemostasis, 15(5), 897-906.

 

2. Yelnik, C. M., Lambert, M., Drumez, E., Le Guern, V., Bacri, J. L., Guerra, M. M., ... & Guettrot-Imbert, G. (2018). Bleeding complications and antithrombotic treatment in 264 pregnancies in antiphospholipid syndrome. Lupus, 27(10), 1679-1686.

3. Rodger, M. A., Gris, J.-C., de Vries, J. I. P., Martinelli, I., Rey, É., Schleussner, E., … Mayhew, A. D. (2016). Low-molecular-weight heparin and recurrent placenta-mediated pregnancy complications: a meta-analysis of individual patient data from randomised controlled trials. The Lancet, 388(10060), 2629–2641. doi:10.1016/s0140-6736(16)31139-4

 

4. Shaaban, O. M., Abbas, A. M., Zahran, K. M., Fathalla, M. M., Anan, M. A., & Salman, S. A. (2017). Low-Molecular-Weight Heparin for the Treatment of Unexplained Recurrent Miscarriage With Negative Antiphospholipid Antibodies: A Randomized Controlled Trial. Clinical and Applied Thrombosis/Hemostasis, 23(6), 567-572.

 

5. Sirico, A., Saccone, G., Maruotti, G. M., Grandone, E., Sarno, L., Berghella, V., … Martinelli, P. (2018). Low molecular weight heparin use during pregnancy and risk of postpartum hemorrhage: a systematic review and meta-analysis. The Journal of Maternal-Fetal & Neonatal Medicine, 1–8. doi:10.1080/14767058.2017.1419179

Setembro

Nutrição: enteral e parenteral no câncer

1. Arends, J., Bachmann, P., Baracos, V., Barthelemy, N., Bertz, H., Bozzetti, F., ... & Krznaric, Z. (2017). ESPEN guidelines on nutrition in cancer patients. Clinical Nutrition, 36(1), 11-48.

 

2. Barbosa, L. B., Fortes, R. C., & Toscano, B. A. (2017). Impacto de fórmulas enterais imunomoduladoras em pacientes com câncer do trato gastrointestinal enteral: uma revisão da literatura. J Health Sci Inst, 35(1), 49-54.

3. Zhang, B., Wei, G., Li, R., Wang, Y., Yu, J., Wang, R., ... & Chen, X. P. (2017). n-3 fatty acid-based parenteral nutrition improves postoperative recovery for cirrhotic patients with liver cancer: A randomized controlled clinical trial. Clinical Nutrition, 36(5), 1239-1244.

 

4. Yu, H. M., Tang, C. W., Feng, W. M., Chen, Q. Q., Xu, Y. Q., & Bao, Y. (2017). Early enteral nutrition versus parenteral nutrition after resection of esophageal cancer: a retrospective analysis. Indian Journal of Surgery, 79(1), 13-18.

 

5. Murray, K., & Mehta, S. (2018). Home parenteral nutrition for patients with intestinal failure due to advanced cancer. British Journal of Nursing, 27(Sup4a), S1-S8.

Outubro

Diabetes Mellitus 2: consumo de laticínios 

1. Yakoob, M. Y., Shi, P., Willett, W. C., Rexrode, K. M., Campos, H., Orav, E. J., Hu, F. B., … Mozaffarian, D. (2016). Circulating Biomarkers of Dairy Fat and Risk of Incident Diabetes Mellitus Among Men and Women in the United States in Two Large Prospective Cohorts. Circulation, 133(17), 1645-54.

 

2. Chen, M., Sun, Q., Giovannucci, E., Mozaffarian, D., Manson, J. E., Willett, W. C., & Hu, F. B. (2014). Dairy consumption and risk of type 2 diabetes: 3 cohorts of US adults and an updated meta-analysis. BMC medicine, 12(1), 215.

3. Eussen, S. J., van Dongen, M. C., Wijckmans, N., den Biggelaar, L., Elferink, S. J. O., Singh-Povel, C. M., ... & Schaper, N. (2016). Consumption of dairy foods in relation to impaired glucose metabolism and type 2 diabetes mellitus: the Maastricht Study. British Journal of Nutrition, 115(8), 1453-1461.

 

4. Drehmer M, Pereira MA, Schmidt MI, Del Carmen B Molina M, Alvim S, Lotufo PAet al. Associations of dairy intake with glycemia and insulinemia, independent of obesity, in Brazilian adults: the Brazilian Longitudinal Study of Adult Health (ELSA-Brasil). Am J Clin Nutr2015; 101: 775–782.

 

5. Pereira MA, Jacobs Jr DR, Van Horn L, Slattery ML, Kartashov AI, Ludwig DS. Dairy consumption, obesity, and the insulin resistance syndrome in young adults: the CARDIA Study. JAMA 2002; 287: 2081–2089.

Novembro

Cirurgia bariátrica: impacto na insuficiência cardíaca

1. Shimada, Y. J., Tsugawa, Y., Brown, D. F., & Hasegawa, K. (2016). Bariatric surgery and emergency department visits and hospitalizations for heart failure exacerbation: population-based, self-controlled series. Journal of the American College of Cardiology, 67(8), 895-903.

 

2. Lim, C. P., Fisher, O. M., Falkenback, D., Boyd, D., Hayward, C. S., Keogh, A., ... & Lord, R. V. (2016). Bariatric surgery provides a “bridge to transplant” for morbidly obese patients with advanced heart failure and may obviate the need for transplantation. Obesity surgery, 26(3), 486-493.

3. Persson, C. E., Björck, L., Lagergren, J., Lappas, G., Giang, K. W., & Rosengren, A. (2017). Risk of heart failure in obese patients with and without bariatric surgery in Sweden—a registry-based study. Journal of cardiac failure, 23(7), 530-537.

4. Mikhalkova, D., Holman, S. R., Jiang, H., Saghir, M., Novak, E., Coggan, A. R., ... & Schaffer, J. E. (2018). Bariatric Surgery–Induced Cardiac and Lipidomic Changes in Obesity‐Related Heart Failure with Preserved Ejection Fraction. Obesity, 26(2), 284-290.

 

5. Jeng, E. I., Aranda Jr, J. M., Ahmed, M., & Klodell, C. T. (2016). Left ventricular assist device and bariatric surgery: a bridge to heart transplant by weight and waiting time reduction. Journal of cardiac surgery, 31(2), 120-122.

Dezembro

Cirurgia bariátrica: impacto na insuficiência cardíaca

1. Shimada, Y. J., Tsugawa, Y., Brown, D. F., & Hasegawa, K. (2016). Bariatric surgery and emergency department visits and hospitalizations for heart failure exacerbation: population-based, self-controlled series. Journal of the American College of Cardiology, 67(8), 895-903.

 

2. Lim, C. P., Fisher, O. M., Falkenback, D., Boyd, D., Hayward, C. S., Keogh, A., ... & Lord, R. V. (2016). Bariatric surgery provides a “bridge to transplant” for morbidly obese patients with advanced heart failure and may obviate the need for transplantation. Obesity surgery, 26(3), 486-493.

3. Persson, C. E., Björck, L., Lagergren, J., Lappas, G., Giang, K. W., & Rosengren, A. (2017). Risk of heart failure in obese patients with and without bariatric surgery in Sweden—a registry-based study. Journal of cardiac failure, 23(7), 530-537.

4. Mikhalkova, D., Holman, S. R., Jiang, H., Saghir, M., Novak, E., Coggan, A. R., ... & Schaffer, J. E. (2018). Bariatric Surgery–Induced Cardiac and Lipidomic Changes in Obesity‐Related Heart Failure with Preserved Ejection Fraction. Obesity, 26(2), 284-290.

 

5. Jeng, E. I., Aranda Jr, J. M., Ahmed, M., & Klodell, C. T. (2016). Left ventricular assist device and bariatric surgery: a bridge to heart transplant by weight and waiting time reduction. Journal of cardiac surgery, 31(2), 120-122.

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